Capsid opening enables genome release of iflaviruses.

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Authors	ŠKUBNÍK Karel SUKENÍK Lukáš BUCHTA David FÜZIK Tibor PROCHÁZKOVÁ Michaela MORAVCOVÁ Jana ŠMERDOVÁ Lenka PŘIDAL Antonín VÁCHA Robert PLEVKA Pavel
Year of publication	2021
Type	Article in Periodical
Magazine / Source	Science advances
MU Faculty or unit	Central European Institute of Technology
Citation
web	https://www.science.org/doi/pdf/10.1126/sciadv.abd7130
Doi	http://dx.doi.org/10.1126/sciadv.abd7130
Keywords	DEFORMED WING VIRUSBEE PARALYSIS VIRUSCRYO-EMMOLECULAR-DYNAMICSFORCE-FIELDX-RAYPOLIOVIRUSRNAMODELTRANSITIONS
Description	The family Iflaviridae includes economically important viruses of the western honeybee such as deformed wing virus, slow bee paralysis virus, and sacbrood virus. Iflaviruses have nonenveloped virions and capsids organized with icosahedral symmetry. The genome release of iflaviruses can be induced in vitro by exposure to acidic pH, implying that they enter cells by endocytosis. Genome release intermediates of iflaviruses have not been structurally characterized. Here, we show that conformational changes and expansion of iflavirus RNA genomes, which are induced by acidic pH, trigger the opening of iflavirus particles. Capsids of slow bee paralysis virus and sacbrood virus crack into pieces. In contrast, capsids of deformed wing virus are more flexible and open like flowers to release their genomes. The large openings in iflavirus particles enable the fast exit of genomes from capsids, which decreases the probability of genome degradation by the RNases present in endosomes.
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